JP2018513612A5 - - Google Patents

Description

[0246] Various examples have been described. These and other examples are within the scope of the following claims.
Hereinafter, the invention described in the scope of claims of the present application will be appended.
[C1]
A method for decoding video data, comprising:
Selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of the current block, wherein each of the motion information derivation modes of the plurality of motion information derivation modes comprises: Performing a motion search on a first set of reference data corresponding to a second set of reference data outside the current block, wherein the motion information indicates motion of the current block relative to reference video data ,
Determining the motion information of the current block using the selected motion information derivation mode;
Decoding the current block using the determined motion information without decoding syntax elements representing the motion information;
A method comprising:
[C2]
The method of C1, wherein the plurality of motion information derivation modes comprises two or more of a one-sided motion estimation mode, a two-sided matching mode, a template matching mode, or a mirror-based mode.
[C3]
Determining the motion information of the current block comprises using an optimization process to improve initial motion information, wherein the optimization process is for each of the motion information derivation modes. The method of C1, which is the same.
[C4]
The method of C1, further comprising decoding one or more syntax elements indicating whether to perform motion derivation of the current block.
[C5]
Decoding one or more syntax elements indicating the motion information derivation mode from the plurality of motion information derivation modes, further comprising selecting the motion information derivation mode, wherein the one or more syntaxes are selected. The method of C1, comprising selecting the motion information derivation mode according to an element.
[C6]
Decoding one or more syntax elements indicative of the motion information derivation mode comprises decoding a flag indicating one of a two-sided matching mode or a template matching mode as the motion information derivation mode, C5 The method described in 1.
[C7]
The method of C5, wherein decoding one or more syntax elements indicative of the motion information derivation mode comprises decoding an index indicative of the motion information derivation mode.
[C8]
The method of C7, wherein decoding the index comprises context adaptive entropy decoding of the index.
[C9]
Determining a merge mode or advanced motion vector prediction (AMVP) candidate list for the current block, the candidate list comprising one or more motion vector candidates and candidates assigned to the motion information derivation mode; Prepare
Further comprising
The method of C1, wherein selecting the motion information derivation mode comprises selecting the candidates assigned to the motion information derivation mode from the merge mode or AMVP list.
[C10]
One or more syntax elements indicating whether motion information derivation is enabled for the current block of video data, in a sequence parameter set (SPS), picture parameter set (PPS), or slice header The method of C1, further comprising:
[C11]
C10 further comprising skipping decoding of motion information derivation at a decoding unit (CU) or prediction unit (PU) level when the one or more syntax elements indicate that motion information derivation is not enabled. The method described in 1.
[C12]
Selecting the motion information derivation mode comprises selecting a two-sided matching mode, and using the selected motion information derivation mode to determine the motion information of the current block;
Performing two-sided matching so that the temporal position of both reference pictures comes before or after the current picture containing the current block;
Determining two interpolated motion vectors for the current block based on the reference picture;
The method of C1, comprising.
[C13]
Determining the motion information of the current block using the selected motion information derivation mode;
Looking for a best match between the first set of reference data and the second set of reference data, identified using the selected motion information derivation mode;
The method of C1, wherein determining the motion information of the current block using the selected motion information derivation mode comprises determining a motion vector indicative of the best match reference data.
[C14]
The first set of reference data comprises a template included in a picture including the current block, the second set of reference data includes a template included in a reference picture, and searching for the best match is template matching The method of C13, comprising performing
[C15]
The first set of reference data comprises a reference block included in a first reference picture, the second set of reference data comprises a second reference block included in a second reference picture, and the best match The method of C13, wherein searching for comprises performing two-sided matching.
[C16]
The method of C13, wherein searching for the best match reference data is performed using an interpolation filter that is different from an interpolation filter used to perform motion compensation for the current block.
[C17]
Finding the best match reference data is performed using a bilinear filter to determine pixel values of the first set of reference data or the second set of reference data at sub-pixel locations. The method according to C16.
[C18]
Decoding the current block;
Decoding one or more syntax elements indicative of the motion information derivation mode of the current block;
Selecting the motion information derivation mode;
Selecting the motion information derivation mode based on the decoded one or more syntax elements;
Determining a reference block in a reference picture based on the determined motion information;
Decoding residual data from the encoded bitstream, wherein the encoded bitstream does not include the syntax element representing the motion information;
Combining the decoded residual and the determined reference block to reconstruct the current block;
The method of C1, comprising.
[C19]
A method for encoding video data, comprising:
Selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of the current block, wherein each of the motion information derivation modes of the plurality of motion information derivation modes comprises: Performing a motion search on a first set of reference data corresponding to a second set of reference data outside the current block, wherein the motion information indicates motion of the current block relative to reference video data ,
Determining the motion information of the current block using the selected motion information derivation mode;
Encoding the current block using the determined motion information without encoding syntax elements representing the motion information;
A method comprising:
[C20]
The method of C19, wherein the plurality of motion information derivation modes comprises two or more of a one-sided motion estimation mode, a two-sided matching mode, a template matching mode, or a mirror-based mode.
[C21]
Determining the motion information of the current block comprises using an optimization process to improve initial motion information, wherein the optimization process is for each of the motion information derivation modes. The method of C19, which is the same.
[C22]
The method of C19, further comprising encoding one or more syntax elements indicating whether to perform motion derivation of the current block.
[C23]
Encoding one or more syntax elements indicating the motion information derivation mode from the plurality of motion information derivation modes, wherein selecting the motion information derivation mode comprises selecting the one or more syntax information The method of C19, comprising selecting the motion information derivation mode according to a tax element.
[C24]
Encoding one or more syntax elements indicating the motion information derivation mode comprises encoding a flag indicating one of a two-sided matching mode or a template matching mode as the motion information derivation mode. , C23.
[C25]
The method of C23, wherein encoding one or more syntax elements indicating the motion information derivation mode comprises encoding an index indicating the motion information derivation mode.
[C26]
The method of C25, wherein encoding the index comprises context adaptive entropy encoding of the index.
[C27]
Determining a merge mode or advanced motion vector prediction (AMVP) candidate list for the current block, the candidate list comprising one or more motion vector candidates and candidates assigned to the motion information derivation mode; Prepare
Further comprising
The method of C19, wherein selecting the motion information derivation mode comprises selecting the candidates assigned to the motion information derivation mode from the merge mode or AMVP list.
[C28]
One or more syntax elements indicating whether motion information derivation is enabled for the current block of video data, in a sequence parameter set (SPS), picture parameter set (PPS), or slice header The method of C19, further comprising encoding with.
[C29]
Further comprising skipping coding of motion information derivation at the coding unit (CU) or prediction unit (PU) level when the one or more syntax elements indicate that motion information derivation is not enabled. , C28.
[C30]
Selecting the motion information derivation mode comprises selecting a two-sided matching mode, and using the selected motion information derivation mode to determine the motion information of the current block;
Performing two-sided matching so that the temporal position of both reference pictures comes before or after the current picture containing the current block;
Determining two interpolated motion vectors for the current block based on the reference picture;
The method according to C19, comprising:
[C31]
Determining the motion information of the current block using the selected motion information derivation mode;
Looking for a best match between the first set of reference data and the second set of reference data, identified using the selected motion information derivation mode;
The method of C19, wherein determining the motion information of the current block using the selected motion information derivation mode comprises determining a motion vector indicative of the best match reference data.
[C32]
The first set of reference data comprises a template included in a picture including the current block, the second set of reference data includes a template included in a reference picture, and searching for the best match is template matching The method of C31, comprising performing
[C33]
The first set of reference data comprises a reference block included in a first reference picture, the second set of reference data comprises a second reference block included in a second reference picture, and the best match The method of C31, wherein searching for comprises performing two-sided matching.
[C34]
The method of C31, wherein searching for the best match reference data is performed using an interpolation filter that is different from the interpolation filter used to perform motion compensation for the current block.
[C35]
Finding the best match reference data is performed using a bilinear filter to determine pixel values of the first set of reference data or the second set of reference data at sub-pixel locations. The method of C34.
[C36]
Encoding the current block;
Encoding residual data of the current block in an encoded bitstream, wherein the encoded bitstream does not include the coding syntax element representing the motion information;
The method according to C19, comprising:
[C37]
A device for coding video data,
A memory configured to store a current block of video data;
One or more processors;
And the one or more processors comprise:
Selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of the current block, wherein each motion information derivation mode of the plurality of motion information derivation modes includes: Performing a motion search on a first set of reference data corresponding to a second set of reference data outside the current block, wherein the motion information comprises motion of the current block relative to reference video data. Show,
Determining the motion information of the current block using the selected motion information derivation mode;
Coding the current block using the determined motion information without coding syntax elements representing the motion information;
Configured to do the device.
[C38]
The device of C37, wherein the plurality of motion information derivation modes comprises two or more of a one-sided motion estimation mode, a two-sided matching mode, a template matching mode, or a mirror-based mode.
[C39]
To determine the motion information for the current block, the one or more processors are configured to use an optimization process to improve initial motion information, where the optimization process includes The device of C37, which is the same for each of the motion information derivation modes.
[C40]
The device of C37, wherein the one or more processors are further configured to code one or more syntax elements indicating whether to perform motion derivation of the current block.
[C41]
The one or more processors are further configured to code one or more syntax elements indicating the motion information derivation mode from the plurality of motion information derivation modes, and for selecting the motion information derivation mode The device of C37, wherein the one or more processors are configured to select the motion information derivation mode according to the one or more syntax elements.
[C42]
In order to code one or more syntax elements indicating the motion information derivation mode, the one or more processors indicate one of a two-sided matching mode or a template matching mode as the motion information derivation mode. The device of C41, configured to code a flag.
[C43]
The C41 of C41, wherein the one or more processors are configured to code an index indicative of the motion information derivation mode to code one or more syntax elements indicative of the motion information derivation mode. Devices.
[C44]
The device of C43, wherein the one or more processors are configured to context adaptively entropy code the index to code the index.
[C45]
The one or more processors further comprises:
Determining a merge mode or advanced motion vector prediction (AMVP) candidate list for the current block, the candidate list comprising one or more motion vector candidates and candidates assigned to the motion information derivation mode; Prepare
Configured to do
The method of C41, wherein the one or more processors are configured to select the candidate assigned to the motion information derivation mode from the merge mode or AMVP list to select the motion information derivation mode. device.
[C46]
The one or more processors further include one or more syntax elements indicating whether motion information derivation is enabled for the current block of video data, a sequence parameter set (SPS), a picture The device of C37, configured to code in a parameter set (PPS) or slice header.
[C47]
When the one or more syntax elements indicate that motion information derivation is not enabled, the one or more processors are further configured for motion information derivation at a coding unit (CU) or prediction unit (PU) level. The device of C46, configured to skip coding.
[C48]
In order to select the motion information derivation mode, the one or more processors are configured to select a two-sided matching mode, and the motion information of the current block is selected using the selected motion information derivation mode. The one or more processors to determine
Performing two-sided matching so that the temporal position of both reference pictures comes before or after the current picture containing the current block;
Determining two interpolated motion vectors for the current block based on the reference picture;
The device of C37, configured to perform:
[C49]
In order to determine the motion information of the current block using the selected motion information derivation mode, the one or more processors include:
Configured to look for a best match between the first set of reference data and the second set of reference data, identified using the selected motion information derivation mode;
The one or more processors are configured to determine a motion vector indicative of the best match reference data for determining the motion information of the current block using the selected motion information derivation mode. The device of C37.
[C50]
The first set of reference data comprises a template included in a picture including the current block, and the second set of reference data includes a template included in a reference picture, in order to find the best match, The device of C49, wherein the one or more processors are configured to perform template matching.
[C51]
The first set of reference data comprises a reference block included in a first reference picture, the second set of reference data comprises a second reference block included in a second reference picture, and the best match The device of C19, wherein the one or more processors are configured to perform a two-sided match to look for.
[C52]
To look for the best match reference data, the one or more processors are configured to use an interpolation filter that is different from the interpolation filter used to perform motion compensation for the current block. The device according to C19.
[C53]
To look for the best match reference data, the one or more processors are bilinear to determine pixel values of the first set of reference data or the second set of reference data at sub-pixel locations. The device of C52, configured to use a filter.
[C54]
Coding comprises decoding, and for decoding the current block, the one or more processors include:
Configured to decode one or more syntax elements indicating the motion information derivation mode of the current block;
In order to select the motion information derivation mode, the one or more processors are
Selecting the motion information derivation mode based on the decoded one or more syntax elements;
Determining a reference block in a reference picture based on the determined motion information;
Decoding residual data from the encoded bitstream, wherein the encoded bitstream does not include the syntax element representing the motion information;
Combining the decoded residual and the determined reference block to reconstruct the current block;
The device of C37, configured to perform:
[C55]
The device of C54, further comprising a display configured to display the decoded block.
[C56]
Coding comprises encoding, wherein the one or more processors encode the residual data of the current block in the encoded bitstream to encode the current block The device of C37, wherein the encoded bitstream does not include the coding syntax element representing the motion information.
[C57]
The device of C56, further comprising a camera configured to capture a picture including the block of video data.
[C58]
Integrated circuit,
A microprocessor, or
The device of C37, comprising at least one of the wireless communication devices.
[C59]
An apparatus for coding video data,
Means for selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of a current block, wherein each motion information derivation mode of the plurality of motion information derivation modes is Performing a motion search on a first set of reference data corresponding to a second set of reference data outside the current block, wherein the motion information is motion of the current block relative to reference video data Showing,
Means for determining the motion information of the current block using the selected motion information derivation mode;
Means for coding the current block using the determined motion information without decoding syntax elements representing the motion information;
An apparatus comprising:
[C60]
When executed, one or more processors
Selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of the current block, wherein each of the motion information derivation modes of the plurality of motion information derivation modes comprises: Performing a motion search on a first set of reference data corresponding to a second set of reference data outside the current block, wherein the motion information indicates motion of the current block relative to reference video data ,
Determining the motion information of the current block using the selected motion information derivation mode;
Coding the current block using the determined motion information without decoding syntax elements representing the motion information;
A non-transitory computer-readable medium storing instructions for performing

Claims (15)

A method for decoding video data, comprising:
Selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of a current block of a current picture, the motion information indicating motion of the current block relative to reference video data ;
Here, each motion information derivation mode among the plurality of motion information derivation modes is:
Selecting one or more candidate motion vectors to provide initial motion information for a reference picture;
Using an optimization process to improve the initial motion information, wherein the optimization process is the same for each of the motion information derivation modes, wherein the optimization process is referred to Performing a motion search for a first set of reference data of the reference picture corresponding to a second set of data using the candidate motion vector as a starting point, the second set of reference data The set is outside the current block ;
Determining the motion information of the current block using the selected motion information derivation mode;
Decoding the current block using the determined motion information without decoding syntax elements representing the motion information;
Equipped with a,
Wherein the plurality of motion information derivation modes comprise two or more of a one-side motion estimation mode, a two-sided matching mode, a template matching mode, or a mirror-based mode .   The method of claim 1, further comprising decoding one or more syntax elements indicating whether to perform motion derivation of the current block.   Decoding one or more syntax elements indicating the motion information derivation mode from the plurality of motion information derivation modes, further comprising selecting the motion information derivation mode, wherein the one or more syntaxes are selected. The method of claim 1, comprising selecting the motion information derivation mode according to an element. Decoding one or more syntax elements indicating the motion information derivation mode comprises decoding a flag indicating one of a two-sided matching mode or a template matching mode as the motion information derivation mode. Item 4. The method according to Item 3 . 4. The method of claim 3 , wherein decoding one or more syntax elements indicative of the motion information derivation mode comprises decoding an index indicative of the motion information derivation mode. The method of claim 5 , wherein decoding the index comprises context adaptive entropy decoding of the index. Determining a merge mode or advanced motion vector prediction (AMVP) candidate list for the current block, the candidate list comprising one or more motion vector candidates and candidates assigned to the motion information derivation mode; Prepare
Further comprising
The method of claim 1, wherein selecting the motion information derivation mode comprises selecting the candidates assigned to the motion information derivation mode from the merge mode or AMVP list. Selecting the motion information derivation mode comprises selecting a two-sided matching mode, and using the selected motion information derivation mode to determine the motion information of the current block;
Performing two-sided matching so that the temporal position of both reference pictures comes before or after the current picture containing the current block;
Determining two interpolated motion vectors for the current block based on the reference picture;
The method of claim 1, comprising: Determining the motion information of the current block using the selected motion information derivation mode;
Looking for a best match between the first set of reference data and the second set of reference data, identified using the selected motion information derivation mode;
The method of claim 1, wherein determining the motion information of the current block using the selected motion information derivation mode comprises determining a motion vector indicative of the best match reference data. The second set of reference data comprises a template included in a picture including the current block, the first set of reference data includes a template included in a reference picture, and searching for the best match is template matching Comprising performing , or
The first set of reference data comprises a reference block included in a first reference picture, the second set of reference data comprises a second reference block included in a second reference picture, and the best match The method of claim 9 , wherein searching comprises performing two-sided matching . Finding the best match reference data is performed using an interpolation filter that is different from the interpolation filter used to perform motion compensation for the current block , or
Finding the best match reference data is performed using a bilinear filter to determine pixel values of the first set of reference data or the second set of reference data at sub-pixel locations . The method of claim 9 . Decoding the current block;
Decoding one or more syntax elements indicative of the motion information derivation mode of the current block;
Selecting the motion information derivation mode;
Selecting the motion information derivation mode based on the decoded one or more syntax elements;
Determining a reference block in a reference picture based on the determined motion information;
Decoding residual data from the encoded bitstream, wherein the encoded bitstream does not include the syntax element representing the motion information;
Combining the decoded residual and the determined reference block to reconstruct the current block;
The method of claim 1, comprising: A method for encoding video data, comprising:
Selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of a current block of a current picture, the motion information indicating motion of the current block relative to reference video data ;
Here, each motion information derivation mode among the plurality of motion information derivation modes is:
Selecting one or more candidate motion vectors to provide initial motion information;
Using an optimization process to improve the initial motion information, wherein the optimization process is the same for each of the motion information derivation modes, wherein the optimization process is referred to Performing a motion search for a first set of reference data of a reference picture corresponding to a second set of data using the candidate motion vector as a starting point, the second set of reference data Is outside the current block ,
Determining the motion information of the current block using the selected motion information derivation mode;
Encoding the current block using the determined motion information without encoding syntax elements representing the motion information;
Equipped with a,
Wherein the plurality of motion information derivation modes comprise two or more of a one-side motion estimation mode, a two-sided matching mode, a template matching mode, or a mirror-based mode . An apparatus for coding video data,
Means for selecting a motion information derivation mode from a plurality of motion information derivation modes for determining motion information of a current block of a current picture; and wherein the motion information indicates motion of the current block relative to reference video data Show
Here, each motion information derivation mode among the plurality of motion information derivation modes is:
Selecting one or more candidate motion vectors to provide initial motion information;
Using an optimization process to improve the initial motion information, wherein the optimization process is the same for each of the motion information derivation modes, wherein the optimization process is referred to Performing a motion search for a first set of reference data of a reference picture corresponding to a second set of data using the candidate motion vector as a starting point, the second set of reference data Is outside the current block ,
Means for determining the motion information of the current block using the selected motion information derivation mode;
Means for coding the current block using the determined motion information without decoding syntax elements representing the motion information;
Equipped with a,
Wherein the plurality of motion information derivation modes comprise two or more of a one-sided motion estimation mode, a two-sided matching mode, a template matching mode, or a mirror-based mode . A non-transitory computer readable medium having stored thereon instructions that, when executed, cause one or more processors to perform the method of any of claims 1-13.